Organization:
Telecom Italia (TIM)
Headquarters:
Milan, Italy
Users:
600,000
Objective:
As Italy’s businesses grew
increasingly vulnerable to
the threat of ransomware,
data breaches, and other
malicious malware attacks,
service provider TIM sought
an innovative solution to
effectively and efficiently
protect the network and data
of its business users.
Solution:
Cisco Umbrella for Service
Providers (SPs)
Impact:
• Rolled out TIM Safe Web
to more than 600,000
customers, with less than
1 in 10,000 customers
opting out of the service
• Provided TIM with a unique
competitive differentiator
• Created an incremental
revenue stream for TIM

"Ransomware is one of the biggest nightmares facing IT today. Hackers are targeting organizations of all kinds with malware designed to encrypt crucial data—and hold it hostage until payment is made. This white paper reveals four highly effective measures for reducing your exposure to ransomware and keeping your apps and data accessible to authorized users—not hackers and their clients.
Download this white paper to learn how to:
- Shield users of web apps from infection and keep sensitive data off the endpoint
- Prevent email-born ransomware from compromising the endpoint
- Protect mobile devices against attack
- Ensure the rapid recovery of ransomware-encrypted data"

The increase of SSL/TLS traffic indicates that organizations are more and more focused on safeguarding the integrity of the data that flows through their Internet-facing applications.
However, the concurrent growth of malware hidden within that encrypted traffic is cause for concern.
Without visibility into your SSL/TLS traffic, you’ll have some serious blind spots in your security, and these
blind spots could lead to financial losses, data breaches, and damage to your corporate reputation.
That’s why it’s essential to regain visibility into that encrypted traffic and allow your malware-scanning and prevention devices to protect your apps and your network. The most efficient way to get that visibility is by orchestrating your outbound SSL/TLS traffic. With a robust SSL/TLS orchestration solution, you’ll
enjoy better visibility, increased performance, and more flexibility—so you can stop worrying about hidden
malware and focus on developing and supporting new apps to drive your business

The increase of SSL/TLS traffic indicates that organizations are more and more focused on safeguarding the integrity of the data that flows through their Internet-facing applications.
However, the concurrent growth of malware hidden within that encrypted traffic is cause for concern.
Without visibility into your SSL/TLS traffic, you’ll have some serious blind spots in your security, and these
blind spots could lead to financial losses, data breaches, and damage to your corporate reputation.
That’s why it’s essential to regain visibility into that encrypted traffic and allow your malware-scanning and prevention devices to protect your apps and your network. The most efficient way to get that visibility is by orchestrating your outbound SSL/TLS traffic. With a robust SSL/TLS orchestration solution, you’ll
enjoy better visibility, increased performance, and more flexibility—so you can stop worrying about hidden
malware and focus on developing and supporting new apps to drive your business

ealthcare workers understand the complexity of fighting infections better than most. As medications are developed, germs evolve and become resistant to those medications. Over time, germs become incredibly complex and difficult to treat as they continue to evolve and adapt.
Unfortunately, computer viruses seem to be following a similar pattern—and the healthcare industry is struggling to catch up.

In the not so distant past, the way we worked looked very different. Most work was done in an office, on desktops that were always connected to the corporate network. The applications and infrastructure that we used sat behind a firewall. Branch offices would backhaul traffic to headquarters, so they would get the same security protection. The focus from a security perspective was to secure the network perimeter. Today, that picture has changed a great deal.

This white paper can help you confirm that your small business or distributed enterprise needs to invest in an effective next-generation firewalls (NGFW) solution. For small businesses, the
NGFW should provide an affordable and manageable entrée to advanced threat protection. In branch offices and the distributed enterprise, NGFWs should provide a detection and enforcement point, analyzing real-time threats and network traffic at scale and benefiting from an integrated and holistic view of the network of which it is a part. In both use scenarios, the NGFW should help your organization defend against targeted and persistent malware attacks, including emerging threats.

What You Will Learn:
Over the years we’ve all heard claims of simple, seemingly magical solutions to solve security problems, including the use of sandboxing technology alone to fight advanced malware and targeted threats.
This paper explores:
• Where sandboxing technology stands today
• Why it fails to meet the needs of organizations
• What’s needed for effective malware analysis

join Robb, Jimmy Ray, and their panel of guest experts as they show you how to protect your network with advanced threat defense across the entire attack continuum by combining Cisco’s proven ASA firewall skills with industry-leading Sourcefire next-generation IPS and advanced malware protection.

The Cisco® 2016 Midyear Cybersecurity Report—which presents research, insights, and perspectives from Cisco Security Research—updates security professionals on the trends covered in our previous security report while also examining developments that may affect the security landscape later this year.

While many organizations are guarding the front door with yesterday’s signature-based antivirus (AV) solutions, today’s unknown malware walks out the back door with all their data. What’s the answer? A new white paper, “The Rise of Machine Learning in Cybersecurity,” explains machine learning (ML) technology —what it is, how it works and why it offers better protection against the sophisticated attacks that bypass standard security measures. You’ll also learn about CrowdStrike’s exclusive ML technology and how, as part of the Falcon platform’s next-gen AV solution,it dramatically increases your ability to detect attacks that use unknown malware.
Download this white paper to learn:?How different types of ML are applied in various industries and why it’s such an effective tool against unknown malware?Why ML technologies differ and what factors can increase the accuracy and effectiveness of ML ?How CrowdStrike’s ML-based technology works as part of the Falcon platform’s next-generation AV

Malware that encrypts a victim’s data until the
extortionist’s demands are met is one of the
most common forms of cybercrime. And the
prevalence of ransomware attacks continues
to increase. Cybercriminals are now using
more than 50 different forms of ransomware
to target and extort money from unsuspecting
individuals and businesses.
Ransomware attacks are pervasive. More than
4,000 ransomware attacks happen every day,
and the volume of attacks is increasing at a
rate of 300 percent annually.1 According to an
IDT911 study, 84 percent of small and midsize
businesses will not meet or report ransomware
demands.2
No one is safe from ransomware, as it attacks
enterprises and SMBs, government agencies,
and individuals indiscriminately. While
ransomware demands more than doubled in
2016 to $679 from $294 in 2015, the cost of
remediating the damage and lost productivity
is many multiples higher.3 Ransomware is the
equivalent of catastrophic data loss, except

The purpose of IT backup and recovery systems is to avoid data loss and recover
quickly, thereby minimizing downtime costs. Traditional storage-centric data protection
architectures such as Purpose Built Backup Appliances (PBBAs), and the conventional
backup and restore processing supporting them, are prone to failure on recovery. This
is because the processes, both automated and manual, are too numerous, too complex,
and too difficult to test adequately. In turn this leads to unacceptable levels of failure for
today’s mission critical applications, and a poor foundation for digital transformation
initiatives.
Governments are taking notice. Heightened regulatory compliance requirements have
implications for data recovery processes and are an unwelcome but timely catalyst for
companies to get their recovery houses in order. Onerous malware, such as
ransomware and other cyber attacks increase the imperative for organizations to have
highly granular recovery mechanisms in place that allow

Attackers and malware are increasingly relying on a common set of tools to compromise identities and spread within a network. Tools like Mimikatz accompanied with common administrator tools like PsExec and WMI have become a standard part of an attacker’s arsenal to turn a single machine compromise into a full network breach. In this webinar we will take a look at why some of these tools are traditionally difficult to control, and introduce new countermeasures that let you fight back. In this webinar we will cover:
- An analysis of recent malware and attacks and the tools they used to spread through the network.
- A closer look at the underlying protocols supporting these tools, and the traditional challenges to controlling them.
- Introduce new controls that allow organizations to control NTLM in real-time, block pass-the-hash techniques, and adaptively control the use of NTLM in the network.
- How to gain visibility into PsExec, WMI, and RPC in general and how to create controls t

When it comes to securing all the parts of a modern distributed network, endpoints remain
the most vulnerable outlier. Mobility has brought a flood of different devices that cross in and
out of enterprise networks on a daily basis. This public exposure, combined with inadequate
traditional endpoint security and a high degree of user autonomy, makes these devices
prime targets for malware infections and other forms of sophisticated attack that seek to
exploit the broader organization. And threat actors are finding enormous success along
these vectors.
To stay competitive, most organizations are currently embracing digital transformation
(DX)—including cloud services, smart Internet of Things (IoT) devices, and greater mobility.
These adaptations provide organizations with faster and more seamless access to critical
information, regardless of the device being used to access it. However, as distributed
networks expand and become more difficult to manage, the endpoint remains a weak link i

Cybercriminals are evolving. Increasingly, they are capitalizing on the open and unprotected nature of the Domain Name System (DNS) to launch damaging phishing, malware, and ransomware attacks. How are you proactively protecting your network and users from these targeted threats? Here are five things to ask yourself as you consider a DNS security solution for your company.

It’s likely not a matter of if, but when your company will fall prey to targeted attack involving malware, ransomware, data exfiltration, or phishing. In fact, 70% of organizations reported a security incident that negatively impacted their business in the past year. Learn more about the realities of cybercrime in today’s hyperconnected world.

The cyber threat landscape is dynamic and accelerating. The Domain Name System (DNS) is a vulnerability in many organizations’ defenses that malicious actors are increasingly exploiting. The following DNS best practices, when coupled with an enterprise threat protection service, will aid you in identifying, blocking, and mitigating targeted threats such as malware, phishing, ransomware, and data exfiltration.

Existing security controls are outmatched — at best static and reactive. Current layers likely aren’t protecting you against all attack vectors, like the vulnerable back door that is recursive DNS. And security mechanisms that frustrate, impede, or disallow legitimate users, devices, or applications will have low adoption rates and/or will curtail productivity. Benign users may even circumvent these processes, further undermining your corporate security posture and creating more gaps in your defense-in- depth strategy.
One of the many use cases associated with a zero trust security strategy is protecting your network — and most importantly, your data — from malware.

Cybercriminals are evolving. Increasingly, they are capitalizing on the open and unprotected nature of the Domain Name System (DNS) to launch damaging phishing, malware, and ransomware attacks. How are you proactively protecting your network and users from these targeted threats? Here are five things to ask yourself as you consider a DNS security solution for your company.